The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study *

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The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study * Ramon Ramon-Muñoz University of Barcelona Josep-Maria Ramon-Muñoz University of Murcia Introduction For a region on the European periphery, Catalonia underwent industrialisation unusually early. 1 In the late eighteenth century it was already home to a flourishing cotton industry, and by the 1830s factory-based industrialisation had begun. 2 By the end of the 1890s, Catalonia had become Spain s factory, 3 and in 1910 it had the highest GDP per capita of all the Spanish com- * Previous versions of this article were presented at Iberometrics VI Sixth Iberian Cliometrics Workshop (Zaragoza, 2013), the X Congreso de la Asociación de Demografía Histórica (Albacete, 2013), the Launching Conference of the European Society of Historical Demography (Alghero, 2014), and the Seminars of the Department of Economic History and Institutions at the University of Barcelona (Barcelona, 2014) and the European History Seminar Series of the School of History at the University of East Anglia (Norwich, 2016). We are very grateful to the participants at these meetings for their comments. We also thank Josep Maria Benaul, Máximo Camacho, Antonio-David Cámara, Jordi Catalan, Sergio Espuelas, Rui Esteves, Joan Gil, Alfonso Herranz, Anthony Howe, Nikola Koepke, José-Miguel Martínez-Carrión, Stefan Öberg, Nuno Palma, Pere Pascual, Vicente Pinilla, Diego Ramiro, Emma Griffin and Francesc Valls for their help and careful reading of earlier versions of this article, as well as Marta Vives and the staff of the Arxiu Comarcal de l Anoia (Anoia County Archive) for their kind collaboration. Thanks are also due to the editor and two anonymous referees for their comments. Finally, we acknowledge funding support from: the Ministry of Economy and Competitiveness (MINECO) through the projects HAR2012-33298, HAR2013-47182-C2-2-P, and MINECO/FEDER, UE HAR2015-64769-P; Fundación Séneca; Agencia de Ciencia y Tecnología de la Región de Murcia through the project 19512/PI/14. The usual disclaimer applies. 1. Pollard (1981). 2. Nadal (1975); Sánchez (1989). 3. Nadal (1985). Fecha de recepción: enero 2014 Versión definitiva: febrero 2015 Revista de Historia Industrial N.º 64. Año XXV. 2016. Monográfico 2 77

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study munities. 4 The origins and the development of Catalan industrialisation are well known, 5 but much less attention has been paid to the evolution of living standards during this period. In fact, it is difficult to form a clear picture because the quantitative evidence available is still fragmentary and scarce. Industrial real wages seem to have stagnated between the 1790s and the 1810s, but started to rise after the late 1860s. 6 This might be taken as a reflection of an improvement in living standards during the last third of the century, an interpretation also supported by anthropometric information. 7 However, demographic evidence for certain Catalan localities indicates that this improvement may have started earlier. 8 Whether, when and to what extent the expected productivity gains associated with industrialisation translated into better living standards are not minor issues. In fact, the evolution of the standard of living during early industrialisation has become an important topic in economic history, particularly in the British context. It has also raised considerable controversy: pessimistic views of working-class conditions during the Industrial Revolution have been challenged by more optimistic approaches, and vice versa. After decades of debate, there is now widespread agreement among scholars that working-class conditions improved between the mid-nineteenth century and the outbreak of World War I. This consensus is, however, less clear when the analysis centres on the decades prior to 1850, when the more recent research findings have tended to support the pessimistic view. 9 Not surprisingly, the empirical basis of this debate has relied on the use of a large number of variables. The concept of living standards is very broad and difficult to define: no single indicator is able to cover it comprehensively. Scholars have made extensive use of real wages, but they have also analysed demographic and anthropometric information. 10 Regarding the anthropometric information, height is a reliable indicator of the net cumulative nutritional status of individuals and societies, and is generally associated with the concept of biological standard of living. 11 In particular, individuals physical stature reflects the relationship between nutritional intake and the demands made on the body during childhood and adolescence. These demands come from three main sources: the basal metabolism, that is, the energy necessary 4. Rosés, Martínez-Galarraga & Tirado (2010). 5. See, among others, Vilar (1964); Nadal (1975); Torras (1988); Thomson (1992); Sánchez (2000); Valls-Junyent (2004). 6. Mora (2007); Camps (1995). 7. Ramon-Muñoz, J. M. (2011). 8. Nadal (1992); Muñoz Pradas (1992). 9. Escudero (2002); Voth (2004). 10. See, among others, Huck (1994, 1995); Szreter & Mooney (1998); Floud, Wachter & Gregory (1990); Komlos (1993a); Cinnirella (2008a). 11. Komlos (1985, 1989); Steckel (1995). 78

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz FIGURE 1 Geographical location of Igualada Notes and sources: Based on http://epp.eurostat.ec.europa.eu and http://municat.gencat.cat. to keep the body alive and functioning; the impact of disease and epidemics, which negatively affect height, and, finally, workload and the energy expended on working. Of course, there is an important genetic component in the final stature of an individual, but environmental and economic factors appear to be more important when the average height is compared across regions and social groups and over time. 12 By using anthropometric information, this article aims to contribute to the long-standing debate on the evolution of living standards in Europe prior to World War I. We explore the case of industrial Catalonia by focusing on the city of Igualada, one of the country s main textile centres between the late eighteenth century and the middle of the nineteenth. 13 By the 1760s, Igualada was one of the largest woollen-cloth-manufacturing cities in Catalonia. Located some sixty kilometres west of Barcelona (Figure 1), the city shifted successfully from proto-industrial wool manufacture to factory-based cotton production. By the 12. Steckel & Floud (1997); Blum (2013). 13. See, for example, Torras i Ribé (1974); Torras (1991); Pascual (1991). 79

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study 1840s, Igualada and its surrounding area had become Catalonia s largest cotton centre, in terms of both numbers of workers and numbers of spindles. Between the 1860s and the 1880s the city experienced a long process of decline; industrialisation then recovered towards the end of the nineteenth century and continued to flourish during the first third of the twentieth century. This article is organised as follows. It starts by overviewing the early stages of industrialisation in Igualada. Then, it focuses on the emergence of the factory system in the city and its potential impact on the biological standard of living. To assess standard of living we use data from military records for male cohorts born between the 1820s and the 1910s. The next section compares the heights of young males in Igualada and elsewhere in Catalonia. This is followed by exploring the extent to which the trends and fluctuations observed in the biological standard of living were distributed equally across social groups. The last section concludes. From Proto-Industry to Factory Industry: An Overview In the second half of the eighteenth century, Igualada was experiencing a process of early industrialisation. The main features of this process are well known. 14 Initially, it was based on the production of woollen cloth, which expanded over the course of the eighteenth century. By the middle of the eighteenth century wool production was already a leading activity in the city as well as its main source of employment, and continued to be so until the end of the century. The expansion of the wool textile sector was, in fact, so intense that by the 1760s Igualada had become one of largest wool districts in Catalonia, producing mainly medium- and high-quality goods. Secondly, a notable feature of the expanding wool industry of Igualada was that a large part of cloth production was in the hands of a small number TABLE 1 Population evolution in Igualada, 1717-1830 Year Number Annual Growth Rate (%) 1717 1,630 1768 3,100 1.27 1787 4,925 2.47 1797 6,128 2.21 1830 7,731 0.71 Notes and Sources: Pascual and Estrada (2006: 211). 14. Torras i Ribé (1974); and Torras (1984, 1987, 1991, 1992, 2006). 80

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz of master clothiers, or paraires. The paraires were able to evade guild regulations and took control of the entire process from the purchase of the wool to the specialised phases of the cloth production. The paraires employed large numbers of weavers and spinners, both from the city and from its rural hinterland, who worked under putting-out systems. So, in its early stages, the industrialisation process in Igualada was domestic and rural in nature. This situation had several consequences. As Marfany has suggested, here and elsewhere this proto-industry provided new means of earning a living. It also increased fertility rates and, consequently, led to a rapid growth of the population that was also fed in part by net immigration flows (Table 1). Proto-industry also brought with it greater self-exploitation of the family economy. It added to the pressure on married women to breastfeed for shorter periods due to their workload (one of the practices which pushed up fertility rates). This rapid population growth is also likely to have worsened health conditions through overcrowding, poorer sanitation, and additional pressure on resources. In Marfany s words, rather than raising living standards, proto-industrialisation may have reduced the survival chances of infants ( ) through reduced breastfeeding and childcare, but also through a worsening disease environment as [the] population grew. 15 In fact, after six decades of a certain stability, infant mortality rates began to increase in the mid-eighteenth century: the number of children who died before their first birthday reached 236 out of 1,000 live births between 1810 and 1819 compared with 179 in the 1740s. 16 Although proto-industrialisation seems to have had a rather negative impact on population health in Igualada, there are other factors that contribute to explaining the city s mortality rates. According to Marfany, harvest failures and disease led to abnormally high mortality in the 1760s and 1780s. War also played its part: the years of the French invasion and the so-called War of Independence against the Napoleonic army (1808-1814) witnessed episodes of catastrophic mortality in Igualada none more so than in 1809, the year the city was conquered by the French troops. 17 War not only caused mortality rates to rise but had a hugely disruptive effect on the economy as well. The wars against the French Convention (1793-1795) and against Britain (1797-1801 and 1804-1808), which led to the British blockade of Atlantic trade, and the French invasion of the Iberian Peninsula hit industry hard in Igualada because the local firms found it far more difficult to access markets and raw materials. They also faced increasing competition from foreign manufactures, especially from Britain and France and, 15. Marfany (2010), p. 969. 16. Marfany (2010), p. 966. 17. Marfany (2005), p. 25 and (2010), p. 965. 81

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study TABLE 2 Average size of cotton firms in Igualada, 1820-1850 1820 1850 Panel 1. Total Manufacturers 158 54 Spinning machines 712 (1,056)* n/d Spindles n/d 63,300 Looms 600 (1,125)* 1,499 Workers 2,464 3,823 Panel 2. Per manufacturer Spinning machines 4.5 (6.7)* n/d Spindles n/d 1,172 Looms 3.8 (7.1)* 27.8 Workers 15.6 70.8 Notes and Sources: * The figure in brackets refers to the total number of machines, including those not in operation. Based on data from Marfany (2010), p. 956 and Torras i Ribé (1974), p. 183. during the War of Independence, many of their buildings and factories were damaged or destroyed. 18 In this context, the production of woollen cloth fell by around 28 per cent during the decade after 1789 and by another 60 per cent between 1799 and 1824. The decline experienced by some other textile industries was still worse, at least in the last decade of the eighteenth century. Cotton manufacture, a relatively new and still modest activity in the city, fell by 75 per cent from 1789 to 1799. However, while wool production was unable to recover from the difficulties caused by wars, the cotton industry slowly clawed its way to success. 19 In the 1820s Igualada had more than 150 manufacturers of yarn and cotton fabrics, but only 20 producers of woollen cloths; by the 1840s, only two wool factories remained. The cotton industry employed at least 2,000 workers and had already emerged as the leading sector in the city s economy. Igualada had established itself as Catalonia s leading cotton centre: by 1841, it ranked second in terms of capital invested and value of production, and first in terms of the number of workers employed and spindles in use. 20 The decline of wool manufacturing and the rapid expansion of the cotton industry ran in parallel to another significant transformation: the switch from decentralised to more concentrated forms of productive organisation. In the 18. Torras i Ribé (1974). 19. See Benaul (1991:121-124) for an account of the performance of the wool industry in Igualada between the late eighteenth and the early nineteenth centuries. 20. Torras i Ribé (1974), pp. 178-181; Marfany (2010), p. 956. 82

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz first decades of the nineteenth century, the factory-system made significant progress in Igualada, whereas the more domestic and proto-industrial form of the industry progressively lost ground. In addition, the average size of the cotton mills rose. Data available for the years 1820 and 1850 suggests that the number of workers per manufacturer (and factory) more than quadrupled, from around 15 to around 70 (Table 2). During these years, new cotton firms were set up, some of them of a considerable size: a report from 1845 notes that eight out of around 55 textile factories already employed more than one hundred workers. In 1858, the number of textile factories with more than one hundred workers had decreased, but the four largest cotton mills still employed an average of 244 workers and accounted for 46 per cent of the city s textile workforce. 21 The Emergence of the Factory System and its Impact on Height, 1824-1914: Evidence and Hypotheses Did the transition towards the factory system and its consolidation impact the standard of living of the population? Fragmentary as it still is, the existing information on infant mortality for the eighteenth and nineteenth centuries offers a rather pessimistic view of the evolution of living standards in the ear- TABLE 3 Dataset of the heights of conscripts from Igualada in the nineteenth and early twentieth centuries Period of Birth Period of Recruitment Total Conscripts Conscripts with Height Data 1824-1834 1844-1854 733 73* 1835-1844 1855-1864 728 117 1845-1854 1865-1874 893 292 1855-1864 1875-1884 1,200 517 1865-1874 1885-1893 782 722 1875-1884 1894-1904 1,132 872 1885-1894 1905-1915 1,080 897 1895-1904 1916-1925 1,136 1,037 1905-1914 1926-1935 1,106 1,014 Total 8,790 5,541 Notes and sources: * 15 heights have been estimated. See also Appendix 1. 21. Pascual (2000), pp. 67 and 152. 83

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study ly phases of industrialisation in Igualada. 22 New evidence based on height data for the period when the factory system was emerging points in the same direction. These height data refer to the cohorts born between 1824 and 1914 and have been compiled from the local lists of recruitment for military service, known as the Acts of Classification and Declaration of Soldiers (Table 3 and Figure 2). The original height data used in this article are not affected by truncation, which is one of the potential shortcomings of military samples. 23 Nevertheless, they have other shortcomings that might affect the homogeneity of the series, although we have tried to solve them as far as possible. To start with, we had to estimate the average height for the cohorts born in the 1820s and the early 1830s because the data available for this period are affected by censuring. Indeed, our sources offer no information on the stature of FIGURE 2 Distribution of heights of conscripts from Igualada by periods of birth, 1824-1914 (Standardised height at age 21 years) Notes and sources: Table 3 and Appendices 1 and 2. 22. Marfany (2010); Ramon-Muñoz, R. & Ramon-Muñoz, J. M. (2015). 23. See, for example, Komlos (2004). 84

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz the draftees below 159.6 centimetres, which was the minimum height required to join the army at that time, although they do detail the number of recordings below the minimum stature required. In order to correct for this bias, we estimated the height of the individuals below 159.6 centimetres tall by taking into account the distribution of heights of the cohorts born prior to 1835. 24 A second potential shortcoming of our dataset is to do with the age at which the men were recruited. Throughout the nineteenth century and the beginning of the twentieth, the military authorities modified the enlistment age on several occasions. 25 These modifications in the age of recruitment have implications for the construction of height series. It is well known that with the onset of puberty height growth undergoes a new period of acceleration, known as the adolescent growth spurt. Although the velocity of growth progressively reduces, height continues to increase until the late teens or early twenties. 26 Therefore, comparing the height of conscripts measured at different moments of their growth spurt may bias the final results. TABLE 4 Estimates of the absolute variation of the 50th Percentile height across the cohorts of conscripts in Igualada born between 1876 and 1890 Age Year of Birth Year of Recruitment Conscripts with Height Data P 50 cm 18 1826/1833 1844/1851 27 162.63 Height Variation 19 1825/1832 1844/1851 31 163.09 18 to 19 0.46 19 1876-1880 1895-1899 389 161.90 20 1881-1885 1901-1905 500 162.60 19 to 20 0.70 21 1886-1890 1907-1911 468 163.25 20 to 21 0.65 Notes and sources: See text, Table 3 and Appendices 1 and 2. In order to overcome this problem, we standardised the heights of the draftees at the age of 21 years for the periods in which a different recruitment age was established. Several procedures can be used to standardise the heights of conscripts over time. For reasons of data availability, we used a very sim- age cm 24. Specifically, we assume that the left-hand side of the distribution for the values below the minimum height requirement mirrors the extreme values on the right-hand side of this distribution. To control for a potential bias in our results, we use information from the subsequent five birth cohorts for which complete height data are available (1843-47), and construct a frequency distribution table. We assume that the distribution for the heights missing from the 1824-33 birth cohorts mirrored the extreme values on the left-hand side of the distribution of the 1843-47 birth cohorts. The use of this alternative method of estimation does not significantly alter the previous estimation results. 25. Cámara (2006), and Martínez-Carrión & Puche-Gil (2010). 26. See, for example, Floud, Wachter & Gregory (1990). 85

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study ple method (Table 4). 27 Firstly, we took the fiftieth percentile in height of four different groups of cohorts of recruits measured at different ages, namely draftees born in 1825, 1826, 1832 and 1833, who were recruited at the ages of 18 and 19 years; conscripts born between 1876 and 1880 who enlisted at the age of 19; soldiers born in the period 1881-1885 recruited at the age of 20, and finally draftees born between 1886 and 1890 enlisted at the age of 21. Secondly, we calculated the absolute variation of the fiftieth percentile height across the different age cohorts. Thirdly, we applied these variations to the corresponding cohorts in order to standardise heights. Thus, we assume that a man will be 0.65 centimetres taller at the age of 21 than at the age of 20. Similarly, we assume that 19 year-olds would have grown a further 1.35 centimetres by the age of 21. We also assume that a man will grow 1.81 centimetres between the ages of 18 and 21 years. Fortunately, our results are not very different from those reported by other scholars using different methodologies. 28 Finally, for the cohorts born in the 1820s and the early 1830s (recruitments of 1844 and 1851) we have approximately 75 observations far fewer than for subsequent cohorts. Of course this situation affects the confidence intervals, which are greater for the first decades of the nineteenth century than for subsequent periods, as will be shown below. With these caveats in mind, we have constructed a series of heights for Igualada starting with the cohorts of conscripts born in 1824 and ending with those born in 1914 (Figure 3). The results show that during the period in which the factory system was emerging in Igualada the biological standard of living of the city s young fell quite sharply. According to our estimates, the height of the cohorts born between the 1830s and the 1860s decreased by more than two centimetres, from around 165 to around 162. This is true when we take into account all the conscripts living in Igualada, that is, including the immigrant population (Figure 3.1), but also when we focus only on conscripts born in the city (Figure 3.2). 29 In addition, this period also witnessed 27. This method was developed and first used in Spanish historical anthropometrics by Ramon-Muñoz, J. M. (2009), and has recently been applied by other scholars such as Ayuda & Puche-Gil (2014). 28. Cámara (2007), and Martínez-Carrión & Moreno-Lázaro (2007). 29. In the first half of the nineteenth century, Igualada attracted a large number of migrants (Camps, 1995). As a result, between the 1820s and the 1840s around one quarter of the total enlisted draftees had been born outside the city (Ramon-Muñoz, R. & Ramon-Muñoz, J. M., 2015). This fact biases our aggregate series for the cohorts born prior to the 1850s (Figure 3.1). Indeed, the data available show that prior to the early 1840s the native-born population in Igualada was taller than the immigrant population. The same data show that between the early 1840s and the late 1850s the height of the native population decreased compared with the height of the immigrants, to such an extent that in 1855-1864 they would have become shorter. In light of this evidence, it can be concluded that the decline in the average height that we observe from the 1820s to the 1860s suffers from a certain undervaluation when we take into account all the enlisted conscripts, namely those born either in or outside Igualada. See Appendices 1 and 2. 86

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz FIGURE 3 Average height of conscripts in Igualada in the nineteenth and early twentieth centuries (Ten-year annual averages, standardised height at age 21 years, in centimetres) 3.1. All Conscripts 3.2. Conscripts Born in Igualada Notes and Sources: Figure 3.1 includes 5,541 observations and Figure 3.2 3,998. See also text and footnotes, Table 3 and Appendices 1 and 2. 87

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study a high proportion of individuals of short stature, as proxied by the percentage of recruits measuring less than 159.6 centimetres in height (Figure 4). Short stature is generally associated with adverse sanitary situations, inappropriate feeding, and poor socioeconomic conditions. After the 1860s, heights began to increase, which suggests an improvement in the nutritional status of the city s inhabitants in the course of the forty or fifty years prior to the outbreak of World War I. Nevertheless, it was only in the first decade of the twentieth century that height returned to the same level as eighty years earlier namely around 165 centimetres, after falling to around 162 centimetres in the mid-nineteenth century. The same applies where levels of stunting are concerned. It was also in the early 1900s when they returned to the levels of the 1820s. 30 Interestingly, the long-term trends emerging from height data are not so different from those based on demographic variables. 31 Both sources suggest FIGURE 4 Percentage of conscripts in Igualada below 159.6 centimetres in height in the nineteenth and early twentieth centuries (Ten-year annual averages, standardised height at age 21 years) Notes and Sources: The data include both conscripts born in and outside Igualada. The percentages are estimated by taking into account the total number of enlisted conscripts for which height information is available. See also Table 3, Appendix 1 and text. 30. The estimated body mass index (BMI for the 21-year-old conscripts born in 1891-1892 suggests a similar picture. Ramon-Muñoz, R. & Ramon-Muñoz, J. M. (2015). 31. Ramon-Muñoz, R. & Ramon-Muñoz, J. M. (2015). 88

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz a pessimistic view of the impact of industrialisation on living standards during the period in which the factory-system was becoming established, with high infant mortality rates and a decline in the height of young males between the 1830s and the 1860s. These findings are perhaps not surprising. In Britain, the emergence and spread of the factory-system in the late-eighteenth and early-nineteenth centuries transformed both working and living conditions. Leisure time declined as working hours increased by around 25-30 per cent in the century after 1750. 32 The irregular working patterns that characterised pre-industrial times were also progressively substituted by the more regular, monotonous and disciplined schedules of the mechanised factories. 33 Child labour was used intensively during the Industrial Revolution and, to some extent, reduced married women s labour. 34 While working conditions probably became harder between the mid-eighteenth and the mid-nineteenth centuries, they were not compensated by either substantial gains in real wages or clear improvements in food consumption. 35 Finally, a number of cities grew in parallel to the spread of factory-based industrialisation, offering opportunities for higher wages. 36 However, they also tended to be overcrowded and had poor housing and sanitary conditions, increasing the transmission of diseases. In fact, mortality rates were higher and average height was lower among the inhabitants of industrial cities than in those living in rural areas. 37 Working conditions might also be expected to have changed in Igualada during the period of factory-based industrialisation. For the years prior to the 1870s, the literature suggests that factory workers suffered from long hours in substandard working conditions. 38 However, the empirical information is very scarce; for example, nothing is known about long-term workload trends. At the present stage of research, all that can be said is that the average working day for a textile factory worker was set at 13 hours in the mid- 1850s. It is unlikely that the number of working hours per day would have fallen in the following two decades or so. In 1870, a worker s representative could still state that workdays of 12 and 13 hours were common in Igualada, whereas the average workday in Barcelona was said to be between 11 and 12 hours. 39 32. Voth (1998, 2001, 2003). 33. Thompson (1967); Clark (1994). 34. Humphries (2010), p. 118. 35. Feinstein (1998); Mokyr (1988). 36. Williamson (1990). 37. Huck (1994, 1995); Szreter & Mooney (1998); Cinnirella (2008a). 38. Martínez del Presno (1993). 39. Martínez del Presno (1993), p. 117. See also Domènech (2003), for a broader perspective on the length of the working day in the province of Barcelona during the late-nineteenth and the early-twentieth centuries. 89

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study Child labour was also used in the city s cotton factories, at least during the first half of the nineteenth century. Though their wages were less than a quarter of those received by adult men, children s working conditions were not very different than those of adult labourers. 40 Unfortunately, the number of children employed in these factories is difficult to establish with certainty. In 1820, an industrial report noted that around 60 children were working in cotton production, that is, less than three per cent of the total workforce in this industry. 41 In 1858, another industrial report stated that textile factories employed 184 children, who accounted for around eleven per cent of the city s total textile workforce. The same report also indicated that the numbers of men and women working in the textile manufacture were similar. 42 Fragmentary as it is, the existing information suggests a rise in child factory labour, in both absolute and relative terms, as the factory system spread and the cotton industry expanded. Paralleling this expansion of the cotton industry, the city also experienced a period of rapid demographic increase until the mid-1850s (Table 5). In the peak census year of 1857, Igualada had 14,000 inhabitants, as against 7,700 in 1830. During this period the population density rose from 933 to 1,689 inhabitants per square kilometre. Immigration was also high before the late 1850s and, in fact, accounted for a large share of this growth. 43 In this situation, the demand for housing soared: supply progressively adjusted to de- TABLE 5 Evolution of population and households in Igualada, 1830-1914 Year Number Population Households Annual Rates of Growth (%) 40. Balcells (1980), p. 61. 41. Arxiu Comarcal de l Anoia. Bundle n. 28. Box n. 20. 42. Pascual (2000), p. 151. 43. Camps (1995). 90 Number Annual Rates of Growth (%) Population Per Household 1830 7,731 n/d n/d 1842 10,095 2.25 2,153 n/d n/d 1857 14,000 2.20 2,809 1.79 4.98 1877 11,879-0.82 3,032 0.38 3.92 1887 10,201-1.51 2,678-1.23 3.81 1900 10,442 0.18 2,553-0.37 4.09 1910 10,575 0.13 2,623 0.27 4.03 Notes and Sources: Population: Pascual and Estrada (2006: 211); Torras i Ribé (1974:161); and Institut d Estadística de Catalunya (IDESCAT), Igualada, http://www.idescat.cat/territ/. Households: Instituto Nacional de Estadística (INE), Igualada, http://www.ine.es/intercensal/inicio.do.

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz mand and new dwellings were built, though most of this adjustment seems to have consisted of adding new floors to existing houses. The research by Pascual and Estrada on housing is clear in this respect, arguing that during the first half of the nineteenth century Igualada experienced vertical urban growth. 44 Buildings of three and even four storeys became quite common, with the owner of the dwelling living in the first floor and the tenants in the rest. Interestingly, Pascual and Estrada also suggest that as demographic pressure increased, dwellings were divided up in order to house more than one family. This means that by the mid-nineteenth century it was likely that ten or even more people were living in dwellings of around 90 square metres. 45 Although further research is needed, the evidence available suggests that between the 1830s and the 1850s housing conditions deteriorated sharply. While the 1850s probably marked a peak in terms of overcrowding, the decade also represented the beginning of a long industrial recession which was accompanied by social unrest and declining living conditions for a large segment of the local population. The reasons for the deterioration are clear. 46 As Igualada lacked coal reserves and water resources, local manufacturers could not readily use steam machines or hydraulic power and the growth of the cotton industry during the first half of the nineteenth century had been based mainly on the use of animal and human energy. In the early 1850s, fewer than 20 per cent of the cotton spindles working in Igualada were powered mechanically. The figure was even lower in the case of looms: of the 762 cotton looms existing in 1853, more than 90 per cent were hand looms (Figure 5). In the 1850s, Igualada s textile factories continued to use mainly traditional sources of energy, whereas other Catalan cities were mechanising their cotton mills. Though these cities had no coal either Catalonia has very few coal deposits they were located either near ports, where coal could be imported, or near rivers which could supply water power. 47 The lack of mechanisation had several consequences. The first was to do with wage levels. Piece-work wages appear to have been very low in Igualada. In 1855 and 1856 there were major strikes among the workers of the cotton industry, which the employers responded to with a lock-out. 48 The second consequence is to do with trends in the local manufacture. The lack of competitiveness of the city s cotton industry resulted in a long, profound recession in the local economy. Between the early 1850s and the late 1860s the to- 44. Pascual & Estrada (2006). 45. In 1857, the average household in Igualada consisted of five persons (Comisión de Estadística General del Reino, 1858). 46. Nadal (1975, 1991); Torras i Ribé (1979); Pascual (2000). 47. Nadal (1991). For Igualada, the absence of a railway connection was a further obstacle to the development and modernisation of the city s industry; Torras i Ribé (1974). 48. Martínez del Presno (1993); Pascual (2000). 91

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study FIGURE 5 Number of spindles and looms in the cotton industry of Igualada, 1850s-1910s (Annual averages) Number of spindles Number of learns Notes and Sources: Based on data from Torras i Ribé (1979). tal number of spindles dropped by a factor of five, from more than 20,000 to around 4,000, and by the mid-1890s cotton spinning had disappeared altogether. Cotton weaving held up better, although the total number of looms declined between the 1850s and the 1890s. In this context, unemployment rose fast, especially during the first half of the 1860s as cotton imports from the Americas fell during the US Civil War. Contemporary descriptions and local historiography suggest that the 1860s was also a period of severe nutritional deprivation. 49 Perhaps not surprisingly, emigration became an attractive proposition for the inhabitants of Igualada as employment opportunities dwindled and material conditions worsened: in the course of the 30 years following the peak census year of 1857 the city s population fell by 27 per cent, from 14,000 to 10,200 inhabitants. Bearing this information in mind, the fall in the height of Igualada males between the 1830s and the 1860s can be better understood. As in many other industrial cities in Europe, the inhabitants biological standard of living was negatively influenced by the changes in working conditions that accompanied the emergence of factory-based industrialisation. It was also adversely affected by the transformation of the city, which grew rapidly and became overcrowded as industry developed and expanded. In this respect, it could certainly be argued that the negative impact of industrialisation and city growth on Igualada s living standards might have been partly mitigated by the existence and enforcement of a labour regulatory legislation that protected workers, as well as by the intervention of the local authorities in sanitation or public health. Our height data, together with other complementa- 49. Torras i Ribé (1979); Pascual (2000). 92

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz ry evidence, suggest that this was not the case prior to the last third of the twentieth century. 50 This was not all. At the time when Igualada was reaching its highest population density levels, the local cotton industry began to decline, causing employment to fall. Thus, the industrial downturn of the 1860s also contributed to the fall in the city s biological standard of living by reducing workers income and, probably, by impoverishing their nutrition as well. 51 Certainly, the industrial recession of the 1860s had other important consequences. Firstly, population rapidly declined after the census year of 1857, which somewhat reduced overcrowding. Secondly, public works programmes (i.e., road construction) were promoted by the local authorities in the early 1860s, which helped to sustain the income of some textile workers. 52 In spite of this, in Igualada the average height of the 1860-1869 male cohorts had decreased by around 1.2 centimetres compared with the cohorts born in the 1850s. Unfortunately, at the present stage of research it is not possible to carry out econometric tests, owing to the lack of robust quantitative evidence. This means that the precise impact of factors such as working conditions, wages, child labour, urban growth and unemployment rates on living standards cannot be either tested or quantified. Igualada Within the Context of Catalonia: A Comparative Approach But did the biological living standards of the inhabitants of an industrial city like Igualada deteriorate compared with other areas of Catalonia? Conceivably, the fall in height we have documented for the years prior to the 1870s 50. See, for example, Riba (2006) regarding the construction of the sewage system of Igualada. For a discussion of the role of public action on living standards, see, among others, Floud, Fogel, Harris & Hong (2011), chapter 4, and Escudero & Nicolau (2014), and also the case-studies by Escudero & Pérez Castroviejo (2010) and García Gómez & Salort i Vives (2014). 51. The association between industrial crisis and a decline in height has also been suggested, for example, by Martínez-Carrión & Cámara (2015) for the case of Antequera, a city located in the southern Spanish province of Malaga. 52. Pascual (2000). Another potential consequence of the industrial downturn was a decline in child labour as well as changes in working time. For the late-nineteenth and early-twentieth centuries, Jordi Domènech has argued that the Catalan textile firms hoarded skilled, valuable workers in recessions by working short-time, especially in the case of both male and female weavers, whereas the employment of girls and boys and female spinners or helpers was more sensitive to movements in output. Domènech has also argued that when firms faced a decline in sales piece rates remained completely fixed over the cycle and that this wage rigidity was caused by the existence of community-enforced fairness rules, defended by loosely organized groups of insiders benefiting from their ability to organize collective action and from their control over the organization of factory work, Domènech (2008), pp. 18 and 22. Unfortunately, the questions of whether child labour declined, whether working time changed and whether piece rates remained fixed cannot be confirmed at the present stage of research. 93

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study FIGURE 6 Heights of conscripts from Igualada, Rural Western Catalonia (RWC) and Industrial Central & Southern Catalonia (ICSC) in the nineteenth and early-twentieth centuries (Five-year moving averages, non-standardised height, in centimetres) Notes and Sources: Table 3, Appendix 2, Ramon-Muñoz, J.M. (2009, 2011), updated data, and text. may have been part of a more general trend; perhaps the inhabitants of other towns and cities or the rural population experienced an even more dramatic decline in height. The only way to test this possibility is to compare the heights of young males in Igualada and elsewhere in Catalonia. At present, the only available height data for Catalonia are from the rural western towns of Balaguer, Cervera, Juneda, and Tàrrega, and the central and southern industrial cities of Manresa and Reus. 53 With these data for individual towns and cities, we have constructed two different aggregate series for the cohorts born between 1843 and 1914: one for Rural Western Catalonia (RWC) and the other for Industrial Central and Southern Catalonia (ICSC). These aggregate series, together with the series for Igualada, are displayed and compared in Figures 6 and 7. They give rise to a number of comments. To start with, in the three decades before 1870 the cohorts of Igualada were shorter not only relative to other urban cohorts of central and southern Catalonia, but also to the conscripts living in the rural western part of the country as well. Moreover, for the cohorts born between the 1840s and the 1860s 53. Ramon-Muñoz, J. M. (2009, 2011). 94

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz FIGURE 7 Absolute differences in height between conscripts from Igualada and those from Rural Western Catalonia (RWC) and Industrial Central & Southern Catalonia (ICSC) in the nineteenth and early twentieth centuries (Five-year moving averages, nonstandardised height, in centimetres) Notes and Sources: Figure 6. the series show no clear pattern of convergence. Certainly, the height gap between draftees from Igualada and those from rural areas fell suddenly between around 1850 and 1855, due in part to the impact of cholera in rural western Catalonia. 54 Nonetheless, the gap in heights between Igualada and RWC soon widened again (t= -4.963, p= 0.000). 55 A clearer process of convergence is found in the last third of the nineteenth century, but it is only in the cohorts born after the first years of the twentieth century that the Igualada males emerge as taller than their rural counterparts. Put in the Iberian context, the data for Igualada appear to be rather unusual. In Portugal, evidence on heights suggests that the standard of living in Lisbon a large city by European standards was not lower than in the rest of the country. In south-eastern Spain, urban conscripts tended to be taller than 54. Ramon-Muñoz, J. M. (2011). 55. The Student s t-test was calculated by using non-standardised heights from the cohorts born between 1843 and 1864. In this period, the average height was 161.8 centimetres for Igualada (n= 926) and 163.3 centimetres for Rural Western Catalonia (n=1,494). 95

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study their rural peers between the 1830s and the 1890s, 56 this was also the case in the northern province of Biscay between the mid-1850s and the early 1910s, 57 while in central Spain an urban premium emerged in the latter part of the nineteenth century. 58 In Igualada, on the other hand, this urban advantage can be only clearly established during the decade prior to the outbreak of World War I. The pattern found in Igualada also contrasts with the trends evidenced by other Catalan urban areas for which data are available (Figures 6 and 7). The conscripts from Igualada were shorter than those living in Manresa or Reus; this difference in height was substantial and statistically significant for the cohorts born from the early 1840s to the early 1860s (t= -5.741, p= 0.000). 59 Throughout this period, the height gap between Igualada and the series for ICSC fluctuated in much the same way as the gap between Igualada and RWC. However, height differences between the cohorts from Igualada and those from Manresa and Reus widens slightly comparing those born in the 1840s and those born in the 1860s. From the 1860s onwards, a process of convergence in height is also found between Igualada and the other central and southern Catalan cities for which information is available. In spite of this, it was only over the first decade of the twentieth century that Igualada s young males reached a similar height to their peers in Manresa and Reus. The evidence presented in previous sections can help to suggest why males were shorter in Igualada than in other industrial Catalan cities between the 1840s and 1860s. However, three factors need to be stressed. First, in the years around 1860, the evidence available suggests that in Manresa and Reus a lower percentage of the population was employed in factories than in Igualada. 60 Second, in the three decades after 1850, the Igualada cotton textile industry performed worse than the textile industries of Manresa and Reus. Third, and perhaps most importantly, in the first half of the nineteenth century population growth was higher in Igualada than in other industrial cities in central and southern Catalonia. Partially as a result of this, by the mid-nineteenth century Igualada had a very high population density (more than 1,700 inhabitants per square kilometre in the census year of 1857) compared to Manresa (less than 400) and Reus (around 530). 61 56. Martínez-Carrión & Pérez-Castejón (1998b). However, a recent study of nine municipalities in the south-eastern region of Valencia found that for the 1859-1899 birth cohorts rural conscripts were between 0.99 and 0.45 centimetres taller than their urban peers, the differences being statistically significant; Ayuda & Puche-Gil (2014). 57. Martínez-Carrión, Pérez-Castroviejo, Puche-Gil & Ramon-Muñoz (2014). 58. Martínez-Carrión & Moreno-Lázaro (2007); Hernández & Moreno-Lázaro (2009, 2011). 59. Again, the Student s t-test was calculated by using non-standardised heights from the cohorts born between 1843 and 1864. In this period, the average height was 163.3 centimetres for Industrial Central and Southern Catalonia (N=3,136). 60. Giménez Guited (1862). 61. Comisión de Estadística General del Reino (1858). 96

Ramon Ramon-Muñoz, Josep-Maria Ramon-Muñoz FIGURE 8 Average height versus population density in mid-nineteenth century Catalonia Notes and Sources: Annual averages for the periods, 1842-45, 1846-50, 1851-55,1856-60, 1861-65 and 1866-70. Population data estimated by interpolation from the census years of 1842, 1857 and 1860. Periods refer to the conscripts birth year. For example, the average height of the cohorts born between 1842 and 1845 was regressed against the population density for the same period. See also Tables 3 and 4, Figure 6, Appendices 1 and 2, and text. It is well known that population density affects the standard of living of the population. Figure 8 correlates population density levels with average height levels for the cohorts born in the 1840s, 1850s and 1860s for Igualada as well as for the six towns and cities mentioned above, distinguishing between urban and rural areas. The results are revealing: they show a negative relationship between these two variables, suggesting that the higher the population density, the lower the average height. Although correlation is not causality, our data suggest that population density may have had a non-negligible role in explaining the living standards in Igualada during the mid-nineteenth century. In any case, and though much more research is needed, the comparison with other Catalan areas seems to suggest, again, a pessimistic view of the biological standard of living in Igualada during the emergence of factory-based industrialisation. The Evolution of Height Inequality in Nineteenth-Century Igualada Did the pre-1870 decline in height affect all social groups and classes in nineteenth century Igualada equally? Is it fair to speak of inequality in terms of biological living standards during the emergence of the factory system and afterwards? In Britain, income inequality increased during the years of the Industrial Revolution, and then declined in the second half of the nineteenth century. 62 This is what Kuznets would have predicted in his inverted U hypothesis, namely a rise in income inequality during the early stages of economic 62. Lindert & Williamson (1983); Allen (2009). 97

The Biological Standard of Living in Nineteenth-Century Industrial Catalonia: A Case Study growth and a fall afterwards. 63 The reasons why inequality rose and fell in nineteenth-century Britain have recently been explored by Allen, who posits that during the first half of the nineteenth century technical change increased the demand for capital and raised the profit rate, whereas real wages stagnated in a context in which output per worker expanded. 64 In contrast, from the mid-nineteenth century onwards wages rose in line with productivity. These trends in income inequality find partial confirmation through the use of height data. Komlos has shown that upper-class English youths were markedly taller than lower-class youths in the late eighteenth and early nineteenth centuries. 65 He has also observed that the differences in height between these two groups did not substantially change comparing cohorts born in the 1840s with those born in the last decades of the eighteenth century. In other words, the inequality trends based on height data do not match those based on income data. However, recent research on height trends during the classi- FIGURE 9 Evolution of height inequality as measured by the coefficient of variation among conscripts from Igualada in the nineteenth and early-twentieth centuries (Five-year moving averages, standardised height at age 21 years) 9.1. All Conscripts 63. Kuznets (1955, 1966). 64. Allen (2009). 65. Komlos (2007). 98